Shake correction device and observation device

What is claimed is: 1. A shake correction device comprising: a correction optical element which is displaceably disposed between an objective lens fixed to a housing and an ocular lens fixed to the housing; an actuator which displaces the correction optical element; a displacement sensor which detects oscillation applied to the housing and outputs a displacement signal; a correction signal output unit which splits the displacement signal into a plurality of displacement signals according to frequency bands of the displacement signal and amplifies the respective split displacement signals with individual amplification factors to output the respective amplified displacement signals as a plurality of correction signals for the respective frequency bands; and a control unit which drives the actuator based on a composite correction signal, in which the plurality of correction signals are composed, and corrects shake of an image formed by the objective lens and the ocular lens. 2. The shake correction device according to claim 1 , wherein the displacement sensor is an angular velocity sensor, and the correction signal output unit amplifies each of the plurality of displacement signals based on signal output characteristics of the angular velocity sensor as the displacement sensor. 3. The shake correction device according to claim 2 , wherein the control unit creates the composite correction signal by multiplying each of the plurality of correction signals by a coefficient set in advance and adding the plurality of correction signals multiplied by the coefficients. 4. The shake correction device according to claim 3 , wherein the coefficients are set corresponding to a plurality of types of correction modes, in which a correction content of shake of the image is specified, and are changed according to the selection of the correction modes. 5. The shake correction device according to claim 3 , wherein the correction signal output unit has a filter which splits the displacement signal into at least first and second displacement signals according to frequency bands of the displacement signal, and an amplification unit which amplifies the first and second displacement signals with individual amplification factors and outputs at least first and second correction signals. 6. The shake correction device according to claim 3 , wherein the correction optical element is an erect prism. 7. An observation device comprising: a housing; an objective lens and an ocular lens fixed to the housing; and the shake correction device according to claim 3 . 8. The shake correction device according to claim 2 , wherein the correction signal output unit has a filter which splits the displacement signal into at least first and second displacement signals according to frequency bands of the displacement signal, and an amplification unit which amplifies the first and second displacement signals with individual amplification factors and outputs at least first and second correction signals. 9. The shake correction device according to claim 2 , wherein the correction optical element is an erect prism. 10. An observation device comprising: a housing; an objective lens and an ocular lens fixed to the housing; and the shake correction device according to claim 2 . 11. The shake correction device according to claim 1 , wherein the control unit creates the composite correction signal by multiplying each of the plurality of correction signals by a coefficient set in advance and adding the plurality of correction signals multiplied by the coefficients. 12. The shake correction device according to claim 11 , wherein the coefficients are set corresponding to a plurality of types of correction modes, in which a correction content of shake of the image is specified, and are changed according to the selection of the correction modes. 13. The shake correction device according to claim 12 , wherein the correction signal output unit has a filter which splits the displacement signal into at least first and second displacement signals according to frequency bands of the displacement signal, and an amplification unit which amplifies the first and second displacement signals with individual amplification factors and outputs at least first and second correction signals. 14. The shake correction device according to claim 11 , wherein the correction signal output unit has a filter which splits the displacement signal into at least first and second displacement signals according to frequency bands of the displacement signal, and an amplification unit which amplifies the first and second displacement signals with individual amplification factors and outputs at least first and second correction signals. 15. The shake correction device according to claim 11 , wherein the correction optical element is an erect prism. 16. An observation device comprising: a housing; an objective lens and an ocular lens fixed to the housing; and the shake correction device according to claim 11 . 17. The shake correction device according to claim 1 , wherein the correction signal output unit has a filter which splits the displacement signal into at least first and second displacement signals according to frequency bands of the displacement signal, and an amplification unit which amplifies the first and second displacement signals with individual amplification factors and outputs at least first and second correction signals. 18. The shake correction device according to claim 17 , wherein the correction signal output unit has a signal addition unit which outputs a third correction signal obtained by adding the first and second correction signals, and the control unit drives the actuator based on the composite correction signal in which the first, second, and third correction signals are composed. 19. The shake correction device according to claim 1 , wherein the correction optical element is an erect prism. 20. An observation device comprising: a housing; an objective lens and an ocular lens fixed to the housing; and the shake correction device according to claim 1 .